KR100517362B1 - Electrode Structure of Flat Panel Display - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrode structure of a flat panel display (FPD), and more particularly, to improve contrast by reducing light emission luminance in a cell in which an image does not appear due to preliminary discharge when driving a plasma display panel.

In order to realize this, the present invention provides an electrode structure in which a pair of sustain electrodes formed in pairs on one side of two parallel substrates joined by frit glass is formed of a transparent electrode line and a metal electrode line formed on the transparent electrode line. The metal electrode lines were arranged at inner ends of two pairs of transparent electrode lines.

Description

Electrode Structure of Flat Panel Display

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flat panel display, and more particularly, to a sustain electrode structure formed on a front substrate of a display device to generate a sustain discharge when a panel is driven.

1 illustrates a structure of a general three-electrode surface discharge PDP. Referring to the structure, the front substrate 1, which is a display surface of an image, and the rear substrate 2 disposed in parallel with a predetermined distance therebetween The front substrate (1) is formed on the plurality of sustain electrode lines (6,7) and the plurality of sustain electrode lines (6,7) formed at regular intervals on the opposite surface of the back substrate (2) A dielectric layer 8 for limiting discharge current and a protective layer 9 formed on the dielectric layer 8 to protect the sustain electrode lines 6 and 7, and a plurality of discharges on the back substrate 2. A plurality of partitions 3 forming a space, a plurality of address electrode lines 4 formed to be orthogonal to the sustain electrode lines 6 and 7 between the partitions 3, and both sides of an inner surface of each of the discharge spaces. It is formed to surround the address electrode line 4 on the partition wall surface and the back substrate surface. When it made of the phosphor layer (5) for emitting visible light.

As shown in FIG. 2, the pair of sustain electrode lines have a width of about 300 μm and are composed of a transparent electrode line 6 and a bus electrode line 7, and the transparent electrode lines 6 are disposed at both ends. When a discharge voltage is supplied, mutual surface discharge occurs in a corresponding discharge space, and the bus electrode line 7 is a metal material having a width of about 50 to 100 μm and is formed on each of the transparent electrode lines 6 to form a transparent electrode line. Prevent voltage drop caused by resistance.

FIG. 2 is a cross-sectional view of the plasma display device after the upper and lower substrates of FIG. 1 are combined, and the upper structure is rotated 90 degrees for better understanding.

The image display process of any cell in the PDP according to the prior art configured as described above is as follows.

First, when the preliminary discharge voltage is supplied to the transparent electrode line 6, the preliminary discharge occurs between the transparent electrode lines 6 so that subsequent address discharge occurs stably, as shown in (a) of FIG. 3, the luminance of 5cd / m ² . A light emitting area A is formed.

Thereafter, when an address discharge voltage is supplied to the transparent electrode line 6 and the address electrode line 4, an address discharge occurs between the transparent electrode line 6 and the address electrode line 4. In other words, an electric field is generated inside the cell, and the trace electrons in the discharge gas are accelerated, the accelerated electrons and the neutral particles in the gas collide with each other, and are ionized into electrons and ions, and another collision between the ionized electrons and the neutral particles is performed. Neutral particles are gradually ionized into electrons and ions at high speed, and the discharge gas is turned into a plasma state and vacuum ultraviolet rays are generated. The generated ultraviolet rays excite the fluorescent layer 5 to generate visible light, and when the generated visible light is emitted to the outside through the front substrate 1, light emitted from any cell can be recognized from the outside, that is, image display. do.

After that, when the sustain discharge voltage of 150 V or more is supplied to the transparent electrode line 6, the sustain discharge occurs between the transparent electrode lines 6 to maintain the luminance light emitting region B of 250 cd / m 2 or more for a predetermined time.

However, in the related art, the bus electrode line 7 is located at the outer edge of the transparent electrode line 6. Even in the dark cell where no image appears during driving, a relatively high numerical value of ^{4 to 5} cd / m ² is obtained by preliminary discharge. There was a problem of lowering the overall contrast.

The present invention has been invented to solve the problems of the prior art as described above by placing the bus electrode line on the inner edge of the transparent electrode line unlike the prior art, thereby lowering the luminance in the dark cell to less than ¹ cd / m ² The purpose is to improve contrast.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view of the PDP of the present invention, and the overall structure of the panel is the same as in the prior art, and the structure of the sustain electrode is different from the prior art, and the inner edge of the transparent electrode line 6 'pairing the bus electrode lines 7' is different from the conventional art. It was placed in the configuration.

Referring to the operation and effects of the present invention PDP having the above structure is as follows.

When address discharge occurs by applying power, visible light passes through the front substrate 1 to be emitted to the outside, and then sustain discharge occurs between the transparent electrodes to maintain light emission of the cell.

In this case, in the sustain period, which is the main light emission time, light emission B 'occurs over the entire sustain electrode region as shown in FIG. 5B. The preliminary discharge and the discharge during the address period apply a weak voltage to sustain discharge. As shown in (a) of FIG. 5, that is, the discharge A 'is generated only under the bus electrode 7' which normally blocks light, so that the dark luminance can be lowered to ¹ cd / m ² or less.

That is, the overall brightness may be slightly lowered because the bus electrode line 7 ′ is positioned at the center of the opening and partially blocks the transmitted light. However, the overall image quality of the PDP may be improved due to the large increase in the contrast.

As described above, the sustain electrode structure of the present invention has the effect of relatively improving the contrast of the screen by reducing the luminance generated in the dark cell by the preliminary discharge during panel driving.

1 is an exploded perspective view of the upper and lower substrates of a conventional plasma display panel.

2 is an internal cross-sectional view of a conventional plasma display panel.

3 shows a conventional sustain electrode structure,

(A) is the state of light emitting area during preliminary discharge.

(B) is the state of light emitting area during sustain discharge.

4 is an internal cross-sectional view of the present invention plasma display panel.

Figure 5 shows the sustain electrode structure of the present invention,

(A) is the state of light emitting area during preliminary discharge.

(B) is the state of light emitting area during sustain discharge.

*** Explanation of symbols for the main parts of the drawing ***

1: Front board 2: Back board

3: bulkhead 4: address electrode

5: fluorescent layer 6,6 ': transparent electrode

7,7 ': bus electrode 8: dielectric layer

9: protective layer

Claims (3)

In the sustain electrode structure of the display device formed of a transparent electrode and a bus electrode on one side of the two substrates bonded to each other, And two bus electrodes in a pair and positioned opposite to an inner end of the transparent electrode. The method of claim 1, And the transparent electrode has a line shape. The method of claim 1, The electrode structure of the flat panel display device, characterized in that the bus electrode is made of a metal material.